High-voltage Stacked Residential Storage System

High-voltage Stacked Residential Storage System

PVB independently designs high-voltage battery storage systems, including the BYES-HV3993 and BYES-HV7833 models.

Our residential energy storage system find extensive use in the energy storage sector, compatible with off-grid, and hybrid inverters.

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High Voltage Stacked Storage System

Featuring safety, reliability, extended service life, easy capacity expansion, attractive design, and simple installation, PVB stacked storage system offers a wide array of advantages.

PV+ESS+EV Charger

Fully compatible with EV chargers and PV protection products, PVB stacked storage systems seamlessly integrates to deliver an all-in-one solution for household solar PV, energy storage, and charging.

Wide Discharging Temperature Range

The stacked storage system operates efficiently within a temperature range of -10°C to 55°C.

A-Grade LiFePO4

A-grade LiFePO4 cells offer enhanced safety and longer battery cycle life, capable of up to 6000 cycles at 80% DOD.

Wide Discharging Temperature Range

The stacked storage system operates efficiently within a temperature range of -10°C to 55°C.

A-Grade LiFePO4

A-grade LiFePO4 cells offer enhanced safety and longer battery cycle life, capable of up to 6000 cycles at 80% DOD.

Product Specs

Parameters


Number of Battery Packs	1
Rated Capacity	3.99KWH
Cell Specification	52ah LiFePO4
Rated Voltage	76.8V
Charging Temperature Range	0-55°C
Discharging Temperature Range	-10-55°C
Storage Temperature	-20-55°C(optimal: 0-35°C)
Dimensions (WDH) mm	560170700
Continuous Charge/Discharge Current	26A
Maximum Charge/Discharge Current	52A
Cycle Life	5000(0.2C, 80% DOD, 25±2°C)
Communication	CAN/RS485
Weight	60KG
Relative Humidity	＜95%(Non-condensing)
Protection Level	IP54
Cooling Method	Natural Cooling
Altitude	＜2000m
Standards	IEC62619 UN38.3

Parameters


Number of Battery Packs	2
Rated Capacity	7.98KWH
Cell Specification	52ah LiFePO4
Rated Voltage	153.5V
Charging Temperature Range	0-55°C
Discharging Temperature Range	-10-55°C
Storage Temperature	-20-55°C(optimal: 0-35°C)
Dimensions (WDH) mm	5601701100
Continuous Charge/Discharge Current	26A
Maximum Charge/Discharge Current	52A
Cycle Life	5000(0.2C, 80% DOD, 25±2°C)
Communication	CAN/RS485
Weight	95KG
Relative Humidity	＜95%(Non-condensing)
Protection Level	IP54
Cooling Method	Natural Cooling
Altitude	＜2000m
Standards	IEC62619 UN38.3

Parameters


Number of Battery Packs	3
Rated Capacity	11.97KWH
Cell Specification	52ah LiFePO4
Rated Voltage	230.4V
Charging Temperature Range	0-55°C
Discharging Temperature Range	-10-55°C
Storage Temperature	-20-55°C(optimal: 0-35°C)
Dimensions (WDH) mm	5601701500
Continuous Charge/Discharge Current	26A
Maximum Charge/Discharge Current	52A
Cycle Life	5000(0.2C, 80% DOD, 25±2°C)
Communication	CAN/RS485
Weight	130KG
Relative Humidity	＜95%(Non-condensing)
Protection Level	IP54
Cooling Method	Natural Cooling
Altitude	＜2000m
Standards	IEC62619 UN38.3

Parameters


Number of Battery Packs	4
Rated Capacity	15.96KWH
Cell Specification	52ah LiFePO4
Rated Voltage	307.2V
Charging Temperature Range	0-55°C
Discharging Temperature Range	-10-55°C
Storage Temperature	-20-55°C(optimal: 0-35°C)
Dimensions (WDH) mm	5601701900
Continuous Charge/Discharge Current	26A
Maximum Charge/Discharge Current	52A
Cycle Life	5000(0.2C, 80% DOD, 25±2°C)
Communication	CAN/RS485
Weight	165KG
Relative Humidity	＜95%(Non-condensing)
Protection Level	IP54
Cooling Method	Natural Cooling
Altitude	＜2000m
Standards	IEC62619 UN38.3

Parameters


Number of Battery Packs	1
Rated Capacity	7.83KWH
Cell Specification	102ah LiFePO4
Rated Voltage	76.8V
Charging Temperature Range	0-55°C
Discharging Temperature Range	-10-55°C
Storage Temperature	-20-55°C(optimal: 0-35°C)
Dimensions (WDH) mm	830170730
Continuous Charge/Discharge Current	52A
Maximum Charge/Discharge Current	102A
Cycle Life	6000(0.2C, 80% DOD, 25±2°C)
Communication	CAN/RS485
Weight	85KG
Relative Humidity	＜95%(Non-condensing)
Protection Level	IP54
Cooling Method	Natural Cooling
Altitude	＜2000m
Standards	IEC62619 UN38.3

Parameters


Number of Battery Packs	2
Rated Capacity	15.66KWH
Cell Specification	102ah LiFePO4
Rated Voltage	153.5V
Charging Temperature Range	0-55°C
Discharging Temperature Range	-10-55°C
Storage Temperature	-20-55°C(optimal: 0-35°C)
Dimensions (WDH) mm	8301701130
Continuous Charge/Discharge Current	52A
Maximum Charge/Discharge Current	102A
Cycle Life	6000(0.2C, 80% DOD, 25±2°C)
Communication	CAN/RS485
Weight	145KG
Relative Humidity	＜95%(Non-condensing)
Protection Level	IP54
Cooling Method	Natural Cooling
Altitude	＜2000m
Standards	IEC62619 UN38.3

Parameters


Number of Battery Packs	2
Rated Capacity	15.66KWH
Cell Specification	102ah LiFePO4
Rated Voltage	153.5V
Charging Temperature Range	0-55°C
Discharging Temperature Range	-10-55°C
Storage Temperature	-20-55°C(optimal: 0-35°C)
Dimensions (WDH) mm	8301701130
Continuous Charge/Discharge Current	52A
Maximum Charge/Discharge Current	102A
Cycle Life	6000(0.2C, 80% DOD, 25±2°C)
Communication	CAN/RS485
Weight	145KG
Relative Humidity	＜95%(Non-condensing)
Protection Level	IP54
Cooling Method	Natural Cooling
Altitude	＜2000m
Standards	IEC62619 UN38.3

Parameters


Number of Battery Packs	2
Rated Capacity	15.66KWH
Cell Specification	102ah LiFePO4
Rated Voltage	153.5V
Charging Temperature Range	0-55°C
Discharging Temperature Range	-10-55°C
Storage Temperature	-20-55°C(optimal: 0-35°C)
Dimensions (WDH) mm	8301701130
Continuous Charge/Discharge Current	52A
Maximum Charge/Discharge Current	102A
Cycle Life	6000(0.2C, 80% DOD, 25±2°C)
Communication	CAN/RS485
Weight	145KG
Relative Humidity	＜95%(Non-condensing)
Protection Level	IP54
Cooling Method	Natural Cooling
Altitude	＜2000m
Standards	IEC62619 UN38.3

FAQs About High Voltage Stacked Storage Systems

What is a high-voltage stacked residential storage system?

A high-voltage stacked storage system is an advanced energy storage solution designed for residential use. It consists of multiple battery modules stacked together to provide higher voltage and capacity. This system is capable of storing energy generated from renewable sources like solar panels or wind turbines, allowing homeowners to use clean energy whenever needed.

How does a high-voltage stacked residential storage system benefit homeowners?

High-voltage stacked storage systems offer several benefits to homeowners. Firstly, they provide backup power during grid outages, ensuring uninterrupted electricity supply to critical appliances. Additionally, these systems allow homeowners to store excess energy generated from renewable sources and use it during peak demand periods, reducing electricity bills. Moreover, they contribute to environmental sustainability by promoting the use of clean energy sources and reducing reliance on fossil fuels.

How does a stacked storage system differ from traditional battery storage solutions?

Unlike traditional battery storage solutions, stacked storage systems utilize multiple battery modules stacked together to create a higher voltage and capacity. This allows for more efficient energy storage and greater flexibility in meeting the energy needs of homeowners. The stackable design also makes it easier to expand the storage capacity as needed, providing scalability and adaptability to changing energy demands.

Can a high-voltage stacked storage system be integrated with existing solar panel installations?

Yes, high-voltage stacked storage systems are designed to seamlessly integrate with existing solar panel installations. By storing excess energy generated from solar panels during the day, homeowners can use it later when the sun is not shining or during peak electricity demand periods. This maximizes the utilization of renewable energy and reduces reliance on grid power, resulting in lower energy costs and a smaller carbon footprint.

Related Products

PVB residential energy storage systems are tailored to meet your home’s unique energy needs.

BYER-HV3993/7833

BYER-2500/5000

BYEH-2500/5000